DE19945629C1 - Extruder for pressing a blank used in the production of foamed aluminum molded parts in vehicle construction has a feed line for refrigerated gas and a device for measuring the volume and length changes of the blank - Google Patents

Abstract

Extruder (1) for pressing a blank (2) for a foamed metal body has a feed line for refrigerated gas and a measuring device for measuring the volume and length changes of the blank after leaving the extruder. The feed line has a regulating or shut-off device (8) to regulate the amount of added refrigerated gas depending on the measured volume or length change. An Independent claim is also included for a process for foaming metal powder using the extruder.

Description

The invention relates to a method and an apparatus for foaming Metals or metal alloys.

Metal foams, especially aluminum foams, can pass through Melting metallurgical processes or powder metallurgical processes become.

In the melt metallurgical processes, a metal melt is passed through Addition of metallic or ceramic particles thickened. In this viscous Melt gases or blowing agents are introduced and thereby Foaming triggered. The foam floats on the surface and becomes skimmed off on a conveyor belt or fed into a closed mold, where the metal foam solidifies. After demolding you get that corresponding molded part made of metal foam. Such methods are in the U.S. 3,481,389 and U.S. 3,669,654.

This process enables relatively large foam volumes to be produced, which in the case of aluminum foaming can have densities of between 80 and 450 kg / m ³ . Disadvantages of these processes are an uneven pore structure, density fluctuations, brittleness when using ceramic components and problematic molded part production.

In powder metallurgical processes, metal powders, for example aluminum powder, are mixed with a small amount of a blowing agent. The most commonly used blowing agent for foaming is TiH ₂ . The mixture of metal powder and blowing agent powder is compacted in a subsequent step at elevated temperature by, for example, axial hot pressing, extrusion or hot isostatic pressing. The result is a solid metallic semi-finished product (blank) in which the propellant particles are embedded gas-tight in the metallic matrix.

The blanks can be formed into sheet metal or profiles using conventional forming processes. The foaming process takes place in a final process step. The semi-finished product is placed, for example, in a hollow mold and heated to a temperature above the melting point of the respective metal matrix and above the decomposition temperature of the blowing agent, for example in the case of TiH ₂ temperatures above approximately 400 ° C. This releases gaseous hydrogen. It forms numerous pores in the metallic matrix and leads to a considerable increase in volume by a factor of 5 to 10 in the molded part produced in this way. Such a method is described in DE 40 18 360.

The advantages of the powder metallurgical process are variably adjustable densities in a range from 500 to 1000 kg / m ³ and a large number of possible alloy components, whereby ductile alloys can also be foamed. Basically, a molding production is possible with these processes. On the other hand, the procedure is problematic. After the metal foam has been completely formed, the mold and the metal foam must be cooled sufficiently quickly so that the foam remains stable. The method is therefore difficult to control, particularly in the case of larger or more complicated shapes. The reproducibility is insufficient. Due to the comparatively technically complicated process management, it is only possible to manufacture molded parts in larger series at relatively high costs.

DE 43 40 791 A1 describes a method for foaming metal powders known in which the metal powder is mixed with a blowing agent, this The mixture is compacted into a blank and the blank is then foamed the blank before foaming in a cold die strand is pressed.

With this item, the low temperature of the die avoids that the temperature rises too much during compaction, the danger there is still uncontrolled foaming.

The invention has for its object the disadvantages of the prior art to overcome and to create a method and an apparatus in which the metal foaming is more controllable and the reproducibility of the like manufactured products or product properties is improved.

The object underlying the invention is achieved by a method for Foaming of metal powder solved, in which the metal powder with a Blowing agent is mixed, the mixture of metal powder and blowing agent is compacted into a blank and then the blank is foamed, with the blank before foaming an extrusion press is fed, and which is characterized in that the extrusion press at least at times a cryogenic gas is supplied, the amount of supplied cryogenic gas according to the desired temperature in the Extrusion press and / or depending on a measured volume or Change in length of the blank emerging from the extrusion press is regulated.

It is therefore provided according to the invention that the amount of the supplied cryogenic gas is regulated according to the cooling requirement, whereby preferably the volume or length change of the extrusion press emerging blank measured and depending on the measured Volume or length change of the blank the amount of the supplied cryogenic gas is regulated. This procedure will be advantageous  even the smallest already foamed areas that lead to volume or Changes in length lead as an input signal for regulating the gas supply used so that foaming of larger areas can be safely avoided.

The term "metal powder" here means pure metal powder, metal alloy powder or mixtures of metal powder or metal alloy powder and others Minor ingredients, typically up to about 1% by weight.

The method according to the invention can be advantageous in extrusion molding higher pressures can be realized without the temperature during the Compaction increases too much, so that the risk of at least partial, unwanted foaming is reduced. The services of the extrusion plant can therefore be enlarged. In addition, the surface quality of the product elevated.

According to the invention it is provided that the cryogenic gas is cryogenic, more liquid Is nitrogen. This has the advantage of efficient and safe cooling during extrusion.

According to the invention, the metal powder is aluminum powder. The term "Aluminum powder" here means pure aluminum powder, Aluminum alloy powder or mixtures of aluminum powder or Aluminum alloy powder and other minor ingredients in a small Amount, typically up to approx. 1% by weight.

The object underlying the invention is further achieved by a device solved for pressing a blank for a foamed metal body, which characterized in that the device is an extruder, which Extruder is fed to the blank before foaming and that the Extrusion press a supply line for a cryogenic gas and a measuring device for measuring the change in volume or length of the blank after it leaves is assigned to the extrusion press, and that the assigned feed line for the cryogenic gas has a control or shut-off valve to the amount of  supplied cryogenic gas depending on the measured volume or Regulate change in length.

So even the smallest already foamed areas can be advantageous Changes in volume or length lead as an input signal for the control the gas supply can be used and foaming of larger areas can be ensured be avoided.

With the help of the device according to the invention there is the advantage that Extrusion with relatively high pressure can be done without a too strong one Causing temperature rise. The danger of unwanted foaming of at least partial areas in the material is thus reduced.

According to the invention, the supply line for the cryogenic gas is connected a source of cryogenic liquid nitrogen. The cooling during the This makes extrusion efficient and safe.

According to the invention, the foamed metal body consists essentially of Aluminum. The term "aluminum" here means pure aluminum, Aluminum alloys or aluminum or aluminum alloys and others Minor constituents, typically up to approx. 1% by weight.

The method and device according to the invention is preferably used for the production of foamed aluminum stiffening and / or Damping elements, particularly preferably molded aluminum parts in Motor vehicle construction.

The device according to the invention and the method will now be described an illustration (figure) explained in more detail by way of example.

The figure shows schematically an extrusion press according to the invention, with cryogenic liquid nitrogen is cooled.  

The blank 2 is fed to the extrusion press 1 . In the case of the already extruded body 3 , the extension of the body 3 is measured at the length measuring point 4 . The signal is fed via line 5 to an evaluation and control unit 6 . A valve 8 is controlled via a line 7 assigned to the evaluation and control unit 6 in order to supply cryogenic liquid nitrogen to the extrusion press 1 . The liquid nitrogen is fed from a source 9 via a line 10 , the fitting 8 and via a line 11 connected to it, the area of the die 12 of the extrusion press 1 in particular being cooled by the cooling section 13 connected to the line 11 . The nitrogen leaves the extrusion press 1 after delivery of at least part of its cold content via a line 11 . It can be used for another purpose or be released into the environment.

Claims (8)

1. Process for foaming metal powder,
in which the metal powder is mixed with a blowing agent, the mixture of metal powder and blowing agent is compacted into a blank and in which the blank is then foamed, the blank being fed to an extrusion press before foaming,
characterized by
that a cryogenic gas is supplied to the extrusion press at least temporarily,
the amount of cryogenic gas supplied being regulated in accordance with the desired temperature in the extrusion press and / or as a function of a measured change in volume or length of the blank emerging from the extrusion press. 2. The method according to claim 1, characterized, that the cryogenic gas is cryogenic, liquid nitrogen. 3. The method according to any one of claims 1 or 2, characterized, that the metal powder is aluminum powder. 4. Device for pressing a blank for a foamed Metal body, characterized, that the device is an extrusion press, which extrusion press the blank is fed before foaming and that the extrusion press Supply line for a cryogenic gas and a measuring device for measurement the volume or length change of the blank after leaving the Extrusion press is assigned, and that the assigned feed line for the cryogenic gas has a control or shut-off valve to the amount of supplied cryogenic gas depending on the measured volume or regulate length change.   5. The device according to claim 4, characterized, that the supply line for the cryogenic gas is connected to a Source of cryogenic liquid nitrogen. 6. Device according to one of claims 4 or 5 characterized, that the foamed metal body consists essentially of aluminum. 7. Use of a method according to any one of claims 1 to 3 or one Device according to one of claims 4 to 6 for the production of foamed aluminum stiffening and / or damping elements. 8. Use according to claim 7 for the production of foamed aluminum Molded parts in motor vehicle construction.